Identification of 3′-terminal exons from yeast artificial chromosomes

David B. Krizman; Tiffany A. Hofmann; Udaya DeSilva; Eric D. Green; Paul S. Meltzer; Jeffrey M. Trent

Identification of 3′-terminal exons from yeast artificial chromosomes

David B. Krizman, Tiffany A. Hofmann, Udaya DeSilva, Eric D. Green, Paul S. Meltzer, Jeffrey M. Trent

Research output: Contribution to journal › Article › peer-review

Abstract

We report an extension of 3′-terminal exon trapping technology to the identification of transcribed sequences from yeast artificial chromosomes (YACs). A 350-kb YAC containing mouse genomic DNA was gel-purified and used as the target DNA for the 3′-terminal exon trapping strategy. A novel direct ligation/ transfection approach was employed to increase the efficiency of trapping 3′-terminal exons from recombinant vector-derived chimeric mRNA. The resulting RT-PCR product was then used to generate a plasmid library. Randomly chosen individual subclones from this library were sequenced, and the results indicate that 86% met sequence criteria characteristic of 3′-terminal exons, whereas 14% were background from identified sources. PCR mapping efforts suggest eight putative last exons present within this YAC, whereas RT-PCR studies demonstrate that three reside within valid expressed sequences.

Original language	English (US)
Pages (from-to)	322-326
Number of pages	5
Journal	Genome Research
Volume	4
Issue number	6
State	Published - 1995
Externally published	Yes

ASJC Scopus subject areas

Genetics

Cite this

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title = "Identification of 3′-terminal exons from yeast artificial chromosomes",

abstract = "We report an extension of 3′-terminal exon trapping technology to the identification of transcribed sequences from yeast artificial chromosomes (YACs). A 350-kb YAC containing mouse genomic DNA was gel-purified and used as the target DNA for the 3′-terminal exon trapping strategy. A novel direct ligation/ transfection approach was employed to increase the efficiency of trapping 3′-terminal exons from recombinant vector-derived chimeric mRNA. The resulting RT-PCR product was then used to generate a plasmid library. Randomly chosen individual subclones from this library were sequenced, and the results indicate that 86% met sequence criteria characteristic of 3′-terminal exons, whereas 14% were background from identified sources. PCR mapping efforts suggest eight putative last exons present within this YAC, whereas RT-PCR studies demonstrate that three reside within valid expressed sequences.",

author = "Krizman, {David B.} and Hofmann, {Tiffany A.} and Udaya DeSilva and Green, {Eric D.} and Meltzer, {Paul S.} and Trent, {Jeffrey M.}",

year = "1995",

language = "English (US)",

volume = "4",

pages = "322--326",

journal = "Genome Research",

issn = "1088-9051",

publisher = "Cold Spring Harbor Laboratory Press",

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TY - JOUR

T1 - Identification of 3′-terminal exons from yeast artificial chromosomes

AU - Krizman, David B.

AU - Hofmann, Tiffany A.

AU - DeSilva, Udaya

AU - Green, Eric D.

AU - Meltzer, Paul S.

AU - Trent, Jeffrey M.

PY - 1995

Y1 - 1995

N2 - We report an extension of 3′-terminal exon trapping technology to the identification of transcribed sequences from yeast artificial chromosomes (YACs). A 350-kb YAC containing mouse genomic DNA was gel-purified and used as the target DNA for the 3′-terminal exon trapping strategy. A novel direct ligation/ transfection approach was employed to increase the efficiency of trapping 3′-terminal exons from recombinant vector-derived chimeric mRNA. The resulting RT-PCR product was then used to generate a plasmid library. Randomly chosen individual subclones from this library were sequenced, and the results indicate that 86% met sequence criteria characteristic of 3′-terminal exons, whereas 14% were background from identified sources. PCR mapping efforts suggest eight putative last exons present within this YAC, whereas RT-PCR studies demonstrate that three reside within valid expressed sequences.

AB - We report an extension of 3′-terminal exon trapping technology to the identification of transcribed sequences from yeast artificial chromosomes (YACs). A 350-kb YAC containing mouse genomic DNA was gel-purified and used as the target DNA for the 3′-terminal exon trapping strategy. A novel direct ligation/ transfection approach was employed to increase the efficiency of trapping 3′-terminal exons from recombinant vector-derived chimeric mRNA. The resulting RT-PCR product was then used to generate a plasmid library. Randomly chosen individual subclones from this library were sequenced, and the results indicate that 86% met sequence criteria characteristic of 3′-terminal exons, whereas 14% were background from identified sources. PCR mapping efforts suggest eight putative last exons present within this YAC, whereas RT-PCR studies demonstrate that three reside within valid expressed sequences.

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M3 - Article

SN - 1088-9051

VL - 4

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EP - 326

JO - Genome Research

JF - Genome Research

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Identification of 3′-terminal exons from yeast artificial chromosomes

Abstract

ASJC Scopus subject areas

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